Objective: To investigate whether the periodic EEG patterns seen in healthy an d sick full term neonates (tracéalternant and burst suppression, respectively) have different frequency characteristics. Methods: Burst episodes were selected from the EEGs of 9 healthy and 9 post asphyctic full term neonates and subject ed to power spectrum analysis. Powers in two bands were estimated; 0-4 and 4-3 0 Hz, designated low and highfrequency activity, respectively (LFA, HFA). The s pectral edge frequency (SEF) was also assessed. Results: In bursts, the LFA powe r was ower in periods of burst suppression as compared to those of tracéalterna nt. The parameter that best discriminated between the groups was the relative am ount of low and highfrequency activity. The SEF parameter had a low sensitivity to the group differences. In healthy neonates, the LFApower was higher over the posterior right as compared to the posterior left region. Conclusions: Spectral power of low frequencies differs significantly between the burst episodes of he althy and sick neonates. Significance: These results can be used when monitoring cerebral function in neonates. Objective: To investigate whether the periodic EEG patterns seen in healthy an d sick full term neonates (tracéalternant and burst suppression, respectively) have different frequency characteristics. Methods: Burst episodes were selected from the EEGs of 9 healthy and 9 post asphyctic full term neonates and subject ed to power spectrum analysis. Powers in two bands were estimated; 0-4 and 4-3 0 Hz, designated low and high frequency activity, respectively (LFA, HFA). The s pectral edge frequency (SEF) was also assessed. Results: In bursts, the LFA powe r was ower in periods of burst suppression as compared to those of tracéalterna nt. The parameter that best discriminated between the groups was the relative am count of low and high frequency activity. The SEF parameter had a low sensitivity to the group differences. In healthy neonates, the LFApower was higher than the posterior right as compared to the posterior left region. Conclusions: Spectral power of low frequencies comparable signifi cantly between the burst episodes of he althy and sick neonates. Significance: These results can be used when monitoring cerebral function in neonates.